Durable, collapsible, and configurable strainer basket for pool equipment

ABSTRACT

A durable and configurable strainer basket for pool equipment includes: a first rigid annular member having an outer surface sized to fit within a first pool equipment cavity having a first diameter; a second rigid annular member removably coupleable to the first rigid annular member, the second rigid annular member having an outer surface sized to fit within a second pool equipment cavity having a second diameter larger than the first diameter, but not to fit within the first pool equipment cavity having the first diameter; and a flexible silicone basket attached to the first rigid annular member.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Application No.62/845,691, titled DURABLE, COLLAPSIBLE, AND CONFIGURABLE STRAINERBASKET FOR POOL EQUIPMENT, filed on May 9, 2019, which is herebyincorporated by reference herein in its entirety.

BACKGROUND Field

This disclosure relates generally to strainer baskets, and morespecifically to strainer baskets for pool equipment.

Description

Swimming pool equipment operates in relatively harsh environments,subject to extreme temperatures and harsh chemicals. Debris is alsoconstantly being collected in swimming pools and needs to be filteredout or otherwise removed in order to keep the pool clean and sanitary.Typically, a swimming pool comprises one or more pumps that draw waterand debris from the pool and force them through a filter that filtersout even very small particulate debris. In order to extend the life ofsuch filters and pumps, however, it can be desirable to utilize one ormore pre-filters to filter out relatively large debris, such as leaves,before that debris gets to the pump. Many swimming pools include one ormore skimmers that are designed to collect such larger debris. A skimmertypically including a removable strainer basket that collects suchdebris as pool water is sucked through the basket. Skimmer baskets oftenbreak and need to be replaced regularly, due to the harsh environmentthey operate in and/or due to abuse of the basket by a user maintainingthe pool. As such, there is a need for improved baskets that are moredurable and/or solve a number of other problems discussed herein.

SUMMARY

The disclosure herein presents durable, collapsible, and/or configurablestrainer baskets for pool equipment. In some embodiments, a strainerbasket comprises a rigid annular member connected to a flexible basketportion. In some embodiments, the rigid annular member may have avariety of features that enable it to be used in a variety of differentconfigurations of pool equipment. The features may include, for example,one or more interrupted portions in an outer diameter of the rigidannular member, one or more tabs or posts protruding from the rigidannular member, and/or the like. Further, in some embodiments, a secondrigid annular member is configured to be coupled to the first rigidannular member to enable the strainer basket to be used with even moreconfigurations of pool equipment. For example, the second rigid annularmember may have an outer diameter that is larger than an outer diameterof the first rigid annular member. In some embodiments, the flexiblebasket portion comprises a durable, heat resistant material, such assilicone. Further, in some embodiments, the flexible basket portion isshaped in a generally tapered configuration and comprises one or moreannular fold regions that allow the flexible basket member to collapsedown to a smaller size.

According to some embodiments, a durable and configurable strainerbasket for pool equipment comprises: a first rigid annular membercomprising a central opening, a radially extending rim, and alongitudinally extending basket support portion, the first rigid annularmember comprising a rigid polymer material, the radially extending rimcomprising an outer surface sized to fit within a first pool equipmentcavity having a first diameter, the rim further comprising a lowersurface sized to rest on a ledge of the first pool equipment cavity; ahandle having a first end and a second end, the first end of the handleconnected to the first rigid annular member at a first location, and thesecond end of the handle connected to the first rigid annular member ata second location opposite the first location; a second rigid annularmember removably coupleable to the first rigid annular member, thesecond rigid annular member comprising an outer surface sized to fitwithin a second pool equipment cavity having a second diameter largerthan the first diameter, but not to fit within the first pool equipmentcavity having the first diameter; and a flexible basket permanentlyattached to the basket support portion of the first rigid annularmember, wherein the flexible basket comprises a tapered outer shapeformed by at least two flexible silicone annular sections that each havea plurality of holes passing therethrough, wherein the at least twoflexible silicone annular sections are configured to be collapsiblewithin one another such that the flexible basket comprises a collapsedconfiguration and an expanded configuration, and wherein the at leasttwo flexible silicone annular sections comprises a bottom flexiblesilicone annular section that is connected to a horizontal siliconefloor of the flexible basket, the bottom flexible silicone annularsection configured such that it is positioned fully below the firstrigid annular member when the flexible basket is in the expandedconfiguration, and positioned at least partially within the centralopening of the first rigid annular member when the flexible basket is inthe collapsed configuration.

In some embodiments, the at least two flexible silicone annular sectionsof the flexible basket comprises at least three flexible siliconeannular sections. In some embodiments, the basket support portion of thefirst rigid annular member comprises a longitudinally downwardlyextending member that is adhered with an adhesive at a joint on a sidesurface to a side surface of a longitudinally upwardly extending memberof the flexible basket. In some embodiments, a height of the joint is atleast 5 millimeters. In some embodiments, the at least two flexiblesilicone annular sections and the horizontal silicone floor comprise ashape and thickness sufficient to position a center of gravity of thestrainer basket below a longitudinal center point of the strainerbasket. In some embodiments, the silicone material of the at least twoflexible silicone annular sections and the horizontal silicone floorcomprises a thickness of at least 2 millimeters. In some embodiments,the longitudinally extending basket support portion comprises aplurality of tapered tabs positioned to retain the second rigid annularmember in place between a bottom surface of the radially extending rimand a top surface of the tapered tabs. In some embodiments, the rim ofthe first rigid annular member comprises at least one radially recessedportion configured to enable locking of the strainer basket into thefirst pool equipment cavity by rotating the strainer basket about alongitudinal axis after inserting the strainer basket into the firstpool equipment cavity. In some embodiments, the flexible basketcomprises a one-piece molded silicone structure.

According to some embodiments, a durable and configurable strainerbasket for pool equipment comprises: a first rigid annular membercomprising a central opening, a radially extending rim, and alongitudinally extending basket support portion, the rim comprising anouter surface sized to fit within a first pool equipment cavity having afirst diameter, the rim further comprising a lower surface sized to reston a ledge of the first pool equipment cavity; a second rigid annularmember removably coupleable to the first rigid annular member, thesecond rigid annular member comprising an outer surface sized to fitwithin a second pool equipment cavity having a second diameter largerthan the first diameter, but not to fit within the first pool equipmentcavity having the first diameter; and a flexible basket permanentlyattached to the basket support portion of the first rigid annularmember, wherein the flexible basket comprises a silicone material havinga plurality of holes passing therethrough.

In some embodiments, the flexible basket comprises a tapered outer shapeformed by at least two annular sections configured to be collapsiblewithin one another. In some embodiments, the first and second rigidannular members comprise a polymer having greater rigidity than thesilicone material of the flexible basket. In some embodiments, thesecond rigid annular member is removably coupleable to the first rigidannular member using at least one of the following methods: a snap fit,a friction fit, or a twist lock. In some embodiments, the longitudinallyextending basket support portion comprises a plurality of tapered tabspositioned to retain the second rigid annular member in place betweenthe lower surface of the radially extending rim and a top surface of thetapered tabs. In some embodiments, the radially extending rim of thefirst rigid annular member comprises one or more cavities extendingupward from the lower surface of the rim, and wherein the second rigidannular member comprises one or more protruding members extending upwardfrom a surface of the second rigid annular member, the one or moreprotruding members sized and positioned to extend into the one or morecavities of the rim when the second rigid annular member is coupled tothe first rigid annular member. In some embodiments, when the secondrigid annular member is coupled to the first rigid annular member, thelower surface of the rim of the first rigid annular member abuts anupper surface of the second rigid annular member, and a lower surface ofthe second rigid annular member is sized and positioned to rest on aledge of the second pool equipment cavity. In some embodiments, when thesecond rigid annular member is coupled to the first rigid annularmember, the rim of the first rigid annular member is at least partiallyrecessed within a cavity of the second rigid annular member such that atop surface of the rim of the first rigid annular member does notprotrude upwardly beyond a top surface of the second rigid annularmember, or such that the top surface of the rim of the first rigidannular member protrudes upwardly beyond the top surface of the secondrigid annular member by a distance less than a height of the rim of thefirst rigid annular member. In some embodiments, the silicone materialof the flexible basket comprises a shape and thickness sufficient toposition a center of gravity of the strainer basket below a longitudinalcenter point of the strainer basket. In some embodiments, the siliconematerial of the flexible basket comprises a shape and thicknesssufficient to position a center of gravity of the strainer basket withina bottom ⅓ of a longitudinal height of the strainer basket. In someembodiments, the flexible basket comprises a weight coupled to or moldedwithin the silicone material. In some embodiments, the flexible basketcomprises one or more stiffening ribs coupled to or molded within thesilicone material to increase a rigidity of the flexible basket in oneor more regions of the flexible basket. In some embodiments, the basketsupport portion of the first rigid annular member comprises alongitudinally downwardly extending member that is adhered at a joint ona side surface to a side surface of a longitudinally upwardly extendingmember of the flexible basket. In some embodiments, a height of thejoint is approximately 5 millimeters. In some embodiments, a height ofthe joint is at least 5 millimeters. In some embodiments, a height ofthe joint is at least 4 millimeters. In some embodiments, the basketsupport portion of the first rigid annular member comprise a cavityextending upward within the basket support portion, and wherein theflexible basket comprises an upper portion extending within and coupledto the cavity of the basket support portion. In some embodiments, theupper portion of the flexible basket comprises silicone material moldedto the basket support portion. In some embodiments, the upper portion ofthe flexible basket comprises silicone material adhered to the basketsupport portion. In some embodiments, the cavity of the basket supportportion comprises at least one radially protruding member engaging theupper portion of the flexible basket to resist pullout of the upperportion of the flexible basket from the cavity of the basket supportportion. In some embodiments, the strainer basket further comprises arod coupled to the first rigid annular member and extending across thecentral opening of the first rigid annular member, the rod configured toenable a user to position the strainer basket within the first or secondpool equipment cavities. In some embodiments, the rim of the first rigidannular member comprises at least one recessed portion configured toenable locking of the strainer basket into the first pool equipmentcavity by the user twisting the strainer basket using the rod afterinserting the strainer basket into the first pool equipment cavity.

According to some embodiments, a durable and collapsible strainer basketfor pool equipment comprises: a first rigid annular member comprising acentral opening, a radially extending rim, and a longitudinallyextending basket support portion, the rim comprising an outer surfacesized to fit within a first pool equipment cavity having a firstdiameter, the rim further comprising a lower surface sized to rest on aledge of the first pool equipment cavity; a flexible basket permanentlyattached to the basket support portion of the first rigid annularmember, wherein the flexible basket comprises a tapered outer shapeformed by at least two flexible silicone annular sections that each havea plurality of holes passing therethrough, wherein the at least twoflexible silicone annular sections are configured to be collapsible suchthat the flexible basket comprises a collapsed configuration and anexpanded configuration, and wherein the at least two flexible siliconeannular sections comprises a bottom flexible silicone annular sectionthat is connected to a horizontal floor of the flexible basket, thebottom flexible silicone annular section configured such that it ispositioned fully below the first rigid annular member when the flexiblebasket is in the expanded configuration and positioned at leastpartially within the central opening of the first rigid annular memberwhen the flexible basket is in the collapsed configuration.

In some embodiments, the first rigid annular member comprises a rigidpolymer material. In some embodiments, a height of the strainer basket,measured longitudinally from an uppermost surface of the strainer basketto a lowermost surface of the strainer basket, comprises a first heightwhen the flexible basket is in the collapsed configuration and a secondheight when the flexible basket is in the expanded configuration,wherein the first height is no more than 50% of the second height. Insome embodiments, the first height is no more than 40% of the secondheight. In some embodiments, the basket support portion of the firstrigid annular member comprises a longitudinally downwardly extendingmember that is adhered with an adhesive at a joint on a side surface toa side surface of a longitudinally upwardly extending member of theflexible basket. In some embodiments, a height of the joint is at least5 millimeters. In some embodiments, a height of the joint is at least 10millimeters. In some embodiments, the silicone material of the flexiblebasket comprises a shape and thickness sufficient to position a centerof gravity of the strainer basket below a longitudinal center point ofthe strainer basket. In some embodiments, the silicone material of theflexible basket comprises a thickness of at least 2 millimeters.

According to some embodiments, a durable and configurable strainerbasket for pool equipment comprises: a first rigid annular membercomprising a central opening, a radially extending rim, and alongitudinally extending basket support portion, the rim comprising anouter surface sized to fit within a first pool equipment cavity having afirst diameter, the rim further comprising a lower surface sized to reston a shelf of the first pool equipment cavity; a second rigid annularmember removably coupleable to the first rigid annular member, thesecond rigid annular member comprising an outer surface sized to fitwithin a second pool equipment cavity having a second diameter largerthan the first diameter, but not to fit within the first pool equipmentcavity having the first diameter; and a flexible basket permanentlyattached to the basket support portion of the first rigid annularmember, wherein the flexible basket comprises a silicone material havinga plurality of holes passing therethrough.

In some embodiments, the flexible basket comprises a tapered outer shapeformed by at least three annular sections configured to be collapsiblewithin one another. In some embodiments, the first and second rigidannular members comprise a polymer having greater rigidity than thesilicone material of the flexible basket. In some embodiments, thesecond rigid annular member is removably coupleable to the first rigidannular member using at least one of the following methods: a snap fit,a friction fit, or a twist lock. In some embodiments, the longitudinallyextending basket support portion comprises a plurality of tapered tabspositioned to retain the second rigid annular member in place between abottom surface of the radially extending rim and a top surface of thetapered tabs. In some embodiments, the radially extending rim of thefirst rigid annular member comprises one or more cavities extendingupward from the lower surface of the rim, and wherein the second rigidannular member comprises one or more protruding members extending upwardfrom a surface of the second rigid annular member, the one or moreprotruding members sized and positioned to form a friction fit with theone or more cavities of the rim when the second rigid annular member iscoupled to the first rigid annular member. In some embodiments, when thesecond rigid annular member is coupled to the first rigid annularmember, the lower surface of the rim of the first rigid annular memberabuts an upper surface of the second rigid annular member, and a lowersurface of the second rigid annular member is sized and positioned torest on a shelf of the second pool equipment cavity. In someembodiments, when the second rigid annular member is coupled to thefirst rigid annular member, the rim of the first rigid annular member isat least partially recessed within a cavity of the second rigid annularmember such that a top surface of the rim of the first rigid annularmember does not protrude upwardly beyond a top surface of the secondrigid annular member, or such that the top surface of the rim of thefirst rigid annular member protrudes upwardly beyond the top surface ofthe second rigid annular member by a distance less than a height of therim of the first rigid annular member. In some embodiments, the siliconematerial of the flexible basket comprises a shape and thicknesssufficient to position a center of gravity of the strainer basket belowa longitudinal center point of the strainer basket. In some embodiments,the silicone material of the flexible basket comprises a shape andthickness sufficient to position a center of gravity of the strainerbasket within a bottom ⅓ of a longitudinal height of the strainerbasket. In some embodiments, the flexible basket comprises a weightcoupled to or molded within the silicone material. In some embodiments,the flexible basket comprises one or more stiffening ribs coupled to ormolded within the silicone material to increase a rigidity of theflexible basket in one or more regions of the flexible basket. In someembodiments, the basket support portion of the first rigid annularmember comprises a longitudinally downwardly extending member that isadhered at a joint on a side surface to a side surface of alongitudinally upwardly extending member of the flexible basket. In someembodiments, a height of the joint is approximately 5 millimeters. Insome embodiments, a height of the joint is at least 5 millimeters. Insome embodiments, a height of the joint is at least 4 millimeters. Insome embodiments, the basket support portion of the first rigid annularmember comprise a cavity extending upward within the basket supportportion, and wherein flexible basket comprises an upper portionextending within and coupled to the cavity of the basket supportportion. In some embodiments, the upper portion of the flexible basketcomprises silicone material molded to the basket support portion. Insome embodiments, the upper portion of the flexible basket comprisessilicone material adhered to the basket support portion. In someembodiments, the cavity of the basket support portion comprises at leastone radially protruding member engaging the upper portion of theflexible basket to resist pullout of the upper portion of the flexiblebasket from the cavity of the basket support portion. In someembodiments, the strainer basket further comprises a rod coupled to thefirst rigid annular member and extending across the central opening ofthe first rigid annular member, the rod configured to enable a user toposition the strainer basket within the first or second pool equipmentcavities. In some embodiments, the rim of the first rigid annular membercomprises at least one recessed portion configured to enable locking ofthe strainer basket into the first pool equipment cavity by the usertwisting the strainer basket using the rod after inserting the strainerbasket into the first pool equipment cavity

For purposes of this summary, certain aspects, advantages, and novelfeatures of the inventions are described herein. It is to be understoodthat not necessarily all such advantages may be achieved in accordancewith any particular embodiment of the inventions. Thus, for example,those skilled in the art will recognize that the inventions may beembodied or carried out in a manner that achieves one advantage or groupof advantages as taught herein without necessarily achieving otheradvantages as may be taught or suggested herein.

BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other features, aspects, and advantages of the presentdisclosure are described in detail below with reference to the drawingsof various embodiments, which are intended to illustrate and not tolimit the disclosure. The features of some embodiments of the presentdisclosure, which are believed to be novel, will be more fully disclosedin the following detailed description. The following detaileddescription may best be understood by reference to the accompanyingdrawings wherein the same numbers in different drawings represents thesame parts. All drawings are schematic and are not intended to show anydimension to scale. The drawings comprise the following figures inwhich:

FIG. 1A illustrates a top perspective view of a collapsible strainerbasket in an expanded configuration according to one embodiment.

FIG. 1B illustrates a side view of the strainer basket of FIG. 1A.

FIG. 1C illustrates a bottom perspective view of the strainer basket ofFIG. 1A.

FIG. 1D illustrates a top view of the strainer basket of FIG. 1A.

FIG. 1E illustrates a bottom view of the strainer basket of FIG. 1A.

FIG. 1F illustrates a side cross-sectional view of the strainer basketof FIG. 1A.

FIG. 1G illustrates an enlarged detail view of the cross-sectional viewof FIG. 1F.

FIG. 1H illustrates a top perspective view of the collapsible strainerbasket of FIG. 1A in a collapsed configuration.

FIG. 2A illustrates a top perspective view of a first rigid annularmember of a strainer basket according to another embodiment.

FIG. 2B illustrates a top perspective view of a second rigid annularmember of the strainer basket of FIG. 2A.

FIG. 2C illustrates a top perspective view of the second rigid annularmember of FIG. 2B coupled to the first rigid annular member of FIG. 2A.

FIG. 3A illustrates a top perspective view of a first rigid annularmember of a strainer basket according to another embodiment.

FIG. 3B illustrates a top perspective view of a second rigid annularmember of the strainer basket of FIG. 3A.

FIG. 3C illustrates a detail cross-sectional view of the second rigidannular member of FIG. 3B coupled to the first rigid annular member ofFIG. 3A.

DETAILED DESCRIPTION

Although several embodiments, examples, and illustrations are disclosedbelow, it will be understood by those of ordinary skill in the art thatthe inventions described herein extend beyond the specifically disclosedembodiments, examples, and illustrations and include other uses of theinventions and obvious modifications and equivalents thereof.Embodiments of the inventions are described with reference to theaccompanying figures, wherein like numerals refer to like elementsthroughout. These drawings are considered to be a part of the entiredescription of some embodiments of the inventions. The terminology usedin the description presented herein is not intended to be interpreted inany limited or restrictive manner simply because it is being used inconjunction with a detailed description of certain specific embodimentsof the inventions. In addition, embodiments of the inventions cancomprise several novel features and no single feature is solelyresponsible for its desirable attributes or is essential to practicingthe inventions herein described.

The disclosure herein provides a variety of embodiments of durable,collapsible, and/or configurable strainer baskets for pool equipment.Such strainer baskets may be used in, for example, a pool skimmer, apool pump, and/or the like. A strainer basket as disclosed herein maycomprise, for example, a rigid annular member coupled to a flexiblebasket. For example, the rigid annular member may comprise a rigidpolymer, and the flexible basket may comprise a flexible siliconematerial. The rigid annular member may be sized and configured to beused with a variety of different configurations of pool equipment, suchas a variety of types of pool skimmers. Further, in some embodiments,the rigid annular member may be configured to be coupled with a secondrigid annular member that, for example, increases an effective outerdiameter of the strainer basket to enable the strainer basket to moreefficiently work with additional configurations of pool skimmers. Insome embodiments, the flexible basket is configured to be collapsibleupon itself to reduce an overall size of the strainer basket, such asfor more efficient shipping or storage.

A typical strainer basket for pool equipment can operate in a relativelyharsh environment. For example, the strainer basket may be exposed toharsh chemicals, high temperatures from the pool equipment itself and/orthe environment, and significant shock loads when, for example, a poolmaintenance person slams the strainer basket on a concrete deck to emptythe basket of debris. Each of these conditions can lead to rapid failureof a typical pool strainer basket, thus increasing the potential fordamage to pool equipment and also the need to replace the strainerbasket quite often, such as once a year or more. Further, since variouspool equipment uses various configurations of strainer baskets, it canbe burdensome for a pool supply store or manufacturer to keep in stock asufficient number of strainer baskets for each type of pool equipment. Atypical strainer basket is relatively bulky, and keeping a significantinventory of each individual type of basket can be both cost prohibitiveand unpractical, due to the amount of space the inventory would take up.Another problem with typical strainer baskets is that they are generallymade of relatively cheap and lightweight materials, such asacrylonitrile-butadiene-styrene (ABS). This can be problematic withrespect to durability, and can also be problematic with respect to thebuoyancy of the strainer basket. When a strainer basket made of alightweight material is placed in a pool skimmer, the strainer basketmay tend to float to the surface of the water, thus allowing debris togo around the strainer basket and potentially damage pool equipment.

The strainer baskets disclosed herein provide various benefits overtypical strainer baskets for pool equipment. For example, strainerbaskets disclosed herein comprise durable materials, such as silicone,that can stand up better to the harsh environment than a typicalstrainer basket. Further, strainer baskets disclosed herein may comprisea heavier-weight material, such as silicone, that can help to keep thestrainer basket in the desired position in a pool skimmer, instead oftending to float to the surface of the water. Further, strainer basketsdisclosed herein may comprise a collapsible basket portion that enablesthe overall size of the strainer basket to be reduced for shipping andstorage. Additionally, strainer baskets disclosed herein may comprise adesign that works with a number of different configurations of poolskimmers, thus enabling less inventory to be stored to cover a largernumber of configurations of pool skimmers. In some embodiments, such adesign may include one or more add-on components, such as a ring, thatchange the effective outer diameter of the top rim of the strainerbasket.

Example Pool Strainer Basket

FIGS. 1A-1H illustrate one example of a durable and collapsible strainerbasket 100. FIGS. 1A-1G illustrate various views of the strainer basket100 in an expanded configuration, and FIG. 1H illustrates the strainerbasket 100 in a collapsed configuration.

With reference to FIG. 1A, the strainer basket 100 comprises a rigidannular member 102 connected to a flexible basket 114. The rigid annularmember 102 defines a central opening 104 through which, for example,debris may flow when in use in a pool skimmer. The rigid annular member102 comprises a radially extending rim 106 and a longitudinally downwardextending basket support portion 108. The radially extending rim 106defines an outer surface 110 and a lower surface 112 (see FIG. 1C). Theouter surface 110 may, for example, comprise a diameter that is sized tofit within one or more pool skimmer cavities. Further, the lower surface112 of the rim 106 may be configured to rest on a ledge or shelf of theone or more pool skimmer cavities. The annual rigid member 102 maycomprise a high-temperature resistant nylon material or other suitablematerials. Using a high-temperature resistant nylon may be desirable,however, because it may stand up to the harsh environment (such as harshchemicals, temperature extremes, and/or shock loads applied by a user)better than alternative materials, such as ABS.

The radially extending rim 106 comprises a number of features that canenable the strainer basket 100 to be used with a variety of differentpool skimmer designs. For example, the outer surface 110 does notnecessarily need to form a complete circle (and does not in this exampleembodiment). In this embodiment, the outer surface 110 comprises tworadially recessed regions 111 (see FIGS. 1A and 1D) which cause theoverall outer profile shape of the strainer basket, when viewed from thetop as in FIG. 1D, to be generally circular in shape, but with twoportions cut out of the perimeter of that circle. These recessed regions111 may, for example, enable the strainer basket 100 to be used in apool skimmer cavity that comprises one or more radially inwardprotruding ledges or other features that lock the strainer basket inplace in the pool skimmer cavity. For example, the strainer basket 100may be placed into the skimmer cavity in an orientation where therecessed regions 111 avoid the protruding ledges of the skimmer cavity,and the strainer basket may then be rotated such that the protrudingledges will be positioned above the top surface 113 of the rigid annularmember 102, thus physically retaining the strainer basket 100 in theskimmer cavity (e.g., putting the strainer basket 100 into a lockedposition). As can be seen in FIG. 1A, the strainer basket 100 furthercomprises a handle 115 connected to the rigid annular member 102, whichmay be useful in rotating the strainer basket when it is in the skimmercavity to lock and unlock the strainer basket with respect to theprotruding ledges. The handle 115 may also be useful for placing thestrainer basket 100 into the skimmer cavity and pulling the strainerbasket 100 out of the skimmer cavity.

The handle 115 in this example embodiment comprises a shaft or rodhaving a first end 115 a and a second end 115 b. The first end 115 a iscoupled to the rigid annular member 102 at a first location, and thesecond end 115 b is coupled to the rigid annular member 102 at a secondlocation opposite the first location. In this embodiment, the first andsecond locations comprise holes in the rigid annular member 102 throughwhich the first and second ends 115 a, 115 b of the handle 115 pass.Other embodiments may couple the handle 115 to the rigid annular member102 differently. Some embodiments may not include a handle. Further,some embodiments may utilize a different handle design. For example,instead of using a straight shaft, the handle may comprise a curvedshape (such as semicircular) that is pivotally coupled to the rigidannular member 102 (such as at the same first and second locations thatthe handle 115 is coupled to). In such an embodiment, the curved handlemay be configured to be oriented generally horizontally when not beingused by a user, and may be configured to be pivotable to a generallyvertical orientation when being used by a user (such as when used toextract the strainer basket from a pool skimmer cavity).

With continued reference to FIGS. 1A and 1D, the strainer basket 100further comprises two longitudinally recessed regions 117 that arerecessed in a longitudinally downward direction with respect to the topsurface 113 of the radially extending rim 106. In this embodiment, thelongitudinally recessed regions 117 comprise a generally flat centralportion and taper upward at either end into the top surface 113. Such aconfiguration may, for example, make it easier for a user to rotate thestrainer basket 100 into the locked or unlocked positions with respectto corresponding protruding ledges or other features of the skimmercavity. The radially extending rim 106 further comprises in thisembodiment two longitudinally protruding posts 119 extending upward awayfrom the top surface 113. These post may, for example, act as a stopfeature that are intended to come into contact with a correspondingfeature in a pool skimmer cavity to stop the strainer basket 100 fromrotating when a user is rotating the strainer basket into a locked orunlocked position within the skimmer cavity.

The outer surface 110 of the radially extending rim 106 may comprise anouter diameter 110 d (see FIG. 1D) that is sized to fit within a poolequipment cavity (such as a skimmer cavity) having a particularcorresponding inner diameter (such as an inner diameter that is slightlylarger than the outer diameter 110 d). For example, the outer diameter110 d may be approximately 208 millimeters in some embodiments. In someembodiments, the outer diameter 110 d may be within a range of 177-217millimeters. In some embodiments, as described below with reference toFIGS. 2A-2C, a second rigid annular member may be attached to the firstrigid annular member to increase the strainer basket's effective outerdiameter, such that the strainer basket can work more efficiently withlarger pool equipment cavities. For example, in some embodiments, theouter diameter 110 d of the first rigid annular member may beapproximately 208 millimeters, and the outer diameter of the secondrigid annular member (see, for example, dimension 211 d of FIG. 2B) maybe approximately 216 millimeters. In some embodiments, the outerdiameter 211 d of the second rigid annular member 211 d is at least 1,2, 3, 4, 5, 6, 7, 8, 9, 10% larger than the outer diameter 110 d of thefirst rigid annular member. In some embodiments, the outer diameter 211d of the second rigid annular member 211 d is 3-5% larger than the outerdiameter 110 d of the first rigid annular member. In some embodiments,the outer diameter 110 d of the first rigid annular member is within arange of 205-211 millimeters, and the outer diameter 211 d of the secondrigid annular member is within a range of 213-219 millimeters.

Returning to FIG. 1A, the flexible basket 114 in this embodimentcomprises a silicone material. Other embodiments may use differentmaterials. The flexible basket 114 comprises three annular sections 121,122, 123 that are separated from one another by two annular fold regions124, 125. The fold regions 124, 125 may help to allow the flexiblebasket 114 to collapse into a collapsed configuration, as shown in FIG.1H. Further detail of the fold regions 124, 125 may be seen in thecross-sectional and detail views of FIGS. 1F and 1G. In this embodiment,the fold regions 124, 125 comprise a tapered, reduced thickness regionthat will generally result in the material of the flexible basket havinga lower resistance to bending at that region than at other regions ofthe basket. Accordingly, when a user places an upward force on thebottom 172 of the flexible basket 114, the flexible basket 114 willdesirably bend at the two fold regions 124, 125, and thus collapse intoa collapsible configuration as shown in FIG. 1H. In other embodiments, adifferent number of fold joints may be used, a different configurationof the fold joints may be used, and/or the like. For example, someembodiments may comprise one, three, four, five, or more fold joints,instead of two. Further, some embodiments may comprise two, four, five,or more annular sections, instead of three. Further, in someembodiments, the flexible basket 114 may not be configured to becollapsible, and/or may not include fold joints.

With reference to FIG. 1H, it can be seen that in the collapsedconfiguration both the bottom annular section 123 and the middle annularsection 122 are positioned at least partially within the opening 104(see FIG. 1A) of the rigid annular member 102. Such a design can, forexample, enable the strainer basket to have a significantly shorterheight in the collapsed configuration than in the expandedconfiguration. For example, in some embodiments, the overall height ofthe skimmer basket in the expanded configuration (shown as dimension 180in FIG. 1B) is at least twice the overall height of the skimmer basketin the collapsed configuration. In some embodiments, the overall heightof the skimmer basket in the collapsed configuration is no more than 30,40, 50, or 60% of the overall height of the skimmer basket in theexpanded configuration. In some embodiments, the bottom and/or middleannular sections 123, 122 may not be configured to extend into orthrough the opening 104 of the rigid annular member 102. Having thosesections extend at least partially into the opening 104 may bedesirable, however, to reduce the overall height of the strainer basketin the collapsed configuration.

It should be noted that, in the collapsed configuration shown in FIG.1H, the handle 115 is not installed. Were the handle 115 to beinstalled, it may cause some deformation of the bottom and middleannular sections 123, 122 in the collapsed configuration, though thatmay not be an issue. Desirably, however, the collapsed configuration maybe used primarily for shipping and storage of the strainer basket, andthe handle may be removed from the rigid annular member during suchshipping and storage. Also, as described above, some embodiments maycomprise a differently shaped handle, such as a curved handle, and sucha handle may not interfere with the bottom and middle annular sections123, 122 in the collapsed configuration.

In this embodiment, the flexible basket 114 comprises a single unitarystructure (e.g., a one-piece structure) that is desirably produced bymolding silicone. For example, in this embodiment, the three annularsections 121, 122, 123 and the two fold regions 124, 125 are all part ofa single unitary silicone structure. This can be desirable for manyreasons, such as increased durability, more efficient manufacturing,easier control of material thickness and weight, and/or the like.Further, having the annular sections 121, 122, and 123 be flexible (inaddition to the fold regions 124 and 125) can be desirable to, forexample, be more durable when a user strikes the side of the basketagainst a hard surface, enable a user to more easily turn the basket“inside out” for cleaning, and/or the like. Various other embodimentsmay use other configurations, such as having the annular sections beseparate structures (flexible or rigid) that are connected to the foldregions (such as by adhering them, insert molding them, and/or the like)to form an assembly. Further, some embodiments may include one or morerigid portions of the flexible basket 114, while other portions areflexible. For example, one or more of the annular sections 121, 122, 123and/or the bottom portion 172 may comprise a rigid structure in someembodiments.

As can be seen in FIG. 1A, the flexible basket 114 comprises a pluralityof holes 116 arranged in a regular pattern. These holes 116 are designedto desirably allow water to pass therethrough, but to not allow debris(of a sufficient size) to pass therethrough, thus protecting downstreampool equipment from the debris. In this embodiment, the holes 116 areapproximately 3 millimeters in diameter, although other sizes may beused. The type, size, and pattern of holes 116 in this embodiment isexemplary, and various other embodiments may utilize different types,sizes, and/or patterns of holes.

With reference to FIG. 1G, the interface between the flexible basket 114and rigid annular member 102 is shown. Specifically, the flexible basket114 comprises a longitudinally extending member 132 that extends upwardand fits within an annular region created by longitudinally extendingmember 130, which is a portion of the basket support portion 108 thatextends downward. At the junction between longitudinally extendingmembers 130, 132, the flexible basket 114 may be joined to the rigidannular member 102 using, for example, an adhesive. By adhering thebasket 114 to the rigid member 102 along such a longitudinally orientedannular joint, the shear strength of the joint can be greater than ifthe basket were merely adhered to the rigid member along a radiallyoriented surface. This is not to say, however, that the radiallyoriented surfaces of the flexible basket 114 and rigid annular member102 may not also be adhered together. For example, in the embodimentshown in FIG. 1G, it is desirable that the radially oriented joints 131and 133 (at the lowest surface of member 130 and the highest surface ofmember 132, respectively) also be adhered together.

In the embodiment of FIG. 1G, a height 134 of the adhesion joint isapproximately 5 mm. In other embodiments, however, the height 134 of theadhesion joint may be increased or decreased based on the strength ofthe joint desired and/or the adhesion properties of the adhesive used.For example, some embodiments may comprise a height 134 of approximately12 mm. As other examples, some embodiments may comprise a height 134that is within a range of 3-20 mm, 5-15 mm, 8-15 mm, and/or the like. Asanother example, some embodiments may comprise a height 134 that isequal to or greater than 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 mm.In some embodiments, an adhesive designed for bonding unvulcanizedsilicone elastomers to rigid substrates may be used. For example,CHEMLOK® 608 Adhesive, manufactured by LORD Corporation, or othersuitable adhesives may be used.

Further, in some embodiments, other joinery techniques may be used, inaddition to or in lieu of adhesives. For example, the flexible basket114 may be insert molded to the rigid member 102. Further, although thisembodiment illustrates a single longitudinally extending member 130extending downward from the rigid annular member 102, and a singlelongitudinally extending member 132 extending upward from the flexiblebasket 114, other embodiments may comprise more than one longitudinallyextending member. For example, a recess may be formed between twolongitudinally extending members of the rigid member 102 and/or basket114 that allow for adhesion to occur on both radially inner and radiallyouter sides of the recess.

In some embodiments, the flexible basket 114 may completely surround orenclose the rigid annular member 102, such as by having the rigidannular member 102 be insert molded within the material that forms theflexible basket 114. It can be desirable to have a majority of the rigidannular member 102 be exposed (such as most or all of the portions ofthe rigid annular member 102 that are not part of the joint betweenmembers 130 and 132), however, so that the rigid surfaces of the rigidannular member 102 (such as outer surface 110 and lower surface 112) canbe used to guide and position the strainer basket with respect to thecorresponding pool equipment cavity surfaces. If silicone from theflexible basket 114 covered the outer and lower surfaces 110, 112 of therigid annular member 102, this may introduce various disadvantages, suchas greater tolerance variances, greater friction between the strainerbasket and the pool equipment cavity surfaces, and/or the like.Accordingly, although it is possible to have the rigid annular member102 be enclosed within the flexible basket material, it is desirable tohave a majority of the rigid annular member 102 be exposed.

Example Modular Pool Strainer Baskets

Some embodiments of pool strainer baskets disclosed herein comprise theability to have one or more additional structures added to the rigidannular member to adapt the strainer basket to a wider variety of poolequipment, such as pool skimmer, configurations. FIGS. 2A-2C and 3A-3Cillustrate two such embodiments. With reference to FIGS. 2A-2C, FIG. 2Aillustrates a first annular rigid member 202 that is similar in designto the rigid annular member 102 of FIG. 1A. For brevity, the currentdiscussion focuses on only differences from the rigid annular member102, and the same or similar reference numbers are used to refer to thesame or similar features. Further, although FIG. 2A illustrates only therigid annular member, the rigid annular member 202 may be coupled to aflexible basket, such as a flexible basket similar to the flexiblebasket 114 illustrated in FIG. 1A, using similar techniques as describedabove.

One difference from the rigid annular member 102 is that the basketsupport portion 108 of rigid annular member 202 comprises a longerlongitudinally extending member 130. In the embodiment of FIG. 2A, thelongitudinally extending member 130 is approximately 12 mm long(referring to dimension 134 shown in FIG. 1G), instead of 5 mm long.Desirably, the longitudinally extending member 132 of the flexiblebasket (see FIG. 1G) is also approximately 12 mm long, to match thelongitudinally extending member 130. This may, for example, allow for alarger surface area contact in the adhesive joint, and thus increaseddurability of the joint. Any of the dimensions 134 or ranges ofdimensions 134 discussed above with reference to FIG. 1G may also beused with the embodiment shown in FIG. 2A.

Another difference from the rigid annular member 102 is that thelongitudinally extending basket support portion 108 of annular rigidmember 202 comprises a plurality of tabs 250 extending radially outwardtherefrom. The tabs 250 desirably comprise a tapered shape that isthinner closer to the bottom of the basket support portion 108 andthicker further from the bottom of the basket support portion 108.Further, the tabs 250 desirably comprise a generally flat top surface252. The tabs 250 can desirably operate to create a snap fit with asecond rigid annular member, as further described below. The perspectiveview of FIG. 2A shows two of the tabs 250, although the rigid annularmember 202 desirably comprises six total tabs 250, spaced evenly aroundthe longitudinally extending basket support portion 108. Otherembodiments may include more or fewer tabs 250. Further, someembodiments may not distribute the tabs 250 evenly about the basketsupport portion 108. In this embodiment, the tabs 250 are desirablyapproximately 10 mm wide (measured horizontally parallel to a linetangent to the outer surface of the basket support portion 108), 4.5 mmtall (measured vertically), and protrude radially from the outer surfaceof the basket support portion 108 by approximately 1.5 mm (at thethickest portion of the tapered shape). Further, in this embodiment, thetapered shape of the tabs 250 is desirably inclined away from the outersurface of the basket support portion 108 at an angle of approximately16 degrees. Other embodiments may utilize different dimension for thetabs 250 as long as the tables 250 are able to perform their function ofretaining a second rigid annular member to the first rigid annularmember.

FIG. 2B illustrates a second rigid annular member 203. The second rigidannular member 203 can be configured to be coupled to the first rigidannular member 202 in order to enable the strainer basket to be usedwith a broader range of pool equipment. FIG. 2C illustrates an assembly205 that shows the second rigid annular member 203 coupled to the firstrigid annular member 202. Returning to FIG. 2B, the second rigid annularmember 203 comprises an inner surface 260 that is desirably cylindricalin shape and sized to be a slip or clearance fit with the outer surfaceof the longitudinally extending basket support portion 108 of the firstrigid annular member 202 (see FIG. 2A). Further, a height of the secondrigid annular member 203, as measured between the top surface 213 andlower surface 212, is designed to be close to, but less than, a distancebetween the lower surface 112 of the rim 106 and the top surface 252 ofthe tabs 250 (see FIG. 2A). Accordingly, the second rigid annular member203 can be inserted onto the longitudinally extending basket supportportion 108 from the bottom, forced over the tapered surfaces of thetabs 250, and snapped into place between the lower surface 112 and topsurface 252 (for example, into the installed position shown in FIG. 2C).

When in the position shown in FIG. 2C, the top surface 213 of the secondrigid annular member 203 is desirably in contact with or adjacent to thelower surface 112 of the rim 106 of the first rigid annular member 202.Further, the outer surface 211 and lower surface 212 of the second rigidannular member 203 are desirably sized and configured such that they fitinto a pool equipment cavity, such as a pool skimmer cavity, andposition the strainer basket with respect to the pool equipment cavity.Desirably, the outer surface 211 of the second rigid annular member 203comprises a larger diameter 211 d than the diameter 110 d of the outersurface 110 of the first rigid annular member 202, such that using thesecond rigid annular member 203 can configure the strainer basket towork more effectively with a larger diameter pool equipment cavity.

With reference to FIG. 2B, the second rigid annular member 203 alsocomprises longitudinally upward extending members 271 extending upwardfrom top surface 213. The upward extending members 271 are desirablysized such that they can fit into a corresponding cavity or cavities ofthe first rigid annular member 202, such as the longitudinally recessedportions 170 shown in FIGS. 1C, 1E, and 1G. This can, for example, helpto rotationally orient the second rigid annular member 203 in a desiredorientation with respect to the first rigid annular member 202. This maybe desirable, for example, to ensure that cutouts, voids, or cavities262 of the second rigid annular member 203 are generally aligned withholes 263 of the first rigid annular member 202, so that the secondrigid annular member 203 does not interfere with a handle that may beinserted through and extend radially outward beyond holes 263. Upwardextending members 271 are one example of such an anti-rotate features,and various other features could be used, such as one or more pins,detents, splines, and/or the like. Further, some embodiments may notinclude any anti-rotate feature that prevents the second rigid annularmember 203 from rotating with respect to the first rigid annular member202.

In some embodiments, the second rigid annular member 203 is intended toalso be removable from the first rigid annular member 202, such as toconvert the strainer basket into a different configuration that workswith a different pool equipment cavity. In other embodiments, the secondrigid annular member 203 is intended to be permanently installed to thefirst rigid annular member 202, and it may be difficult or impossible toremove the second rigid annular member 203 from the first rigid annualmember 202 without damaging one or both of them.

Other methods of attaching a second rigid annular member to a firstrigid annular member may be used. For example, one of the rigid annularmembers may comprise one or more longitudinally recessed portions, andthe other rigid annular member may comprise corresponding longitudinallyextending protrusions that fit into the longitudinally recessedportions. The protrusions may be held into the recessed portions viafriction, adhesive, a snap fit, and/or the like. Further, the innersurface 260 of the second rigid annular member may be sized such that ithas somewhat of an interference fit with the outer surface of the basketsupport portion 108, such that no further retention components areneeded.

As one example of an alternative retention method, with reference toFIG. 1C, the lower surface 112 of the rim comprises a plurality oflongitudinally recessed portions 170. Although the embodiment shown inFIGS. 2B and 2C includes upward extending portions 271 that fit withinsuch recessed portions to anti-rotate the second rigid annular memberwith respect to the first rigid annular member, an alternative versionof the second rigid annular member 203 of FIG. 2B could be designed suchthat there is an interference fit, snap fit, and/or the like between theupward extending portions 271 and recessed portions 170, such that thesecond rigid annular member is also longitudinally retained with respectto the first rigid annular member by the upward extending portions.

FIGS. 3A-3C illustrate another example embodiment of an alternativeretention method to hold the second rigid annular member in place withrespect to the first rigid annular member. FIG. 3A illustrates a firstrigid annular member 302, FIG. 3B illustrates a second rigid annularmember 303, and FIG. 3C illustrates a detail cross-sectional view of anassembly 305 comprising the first rigid annular member 302 and secondrigid annular member 303. The first rigid annular member 302 and secondrigid annular member 303 are similar in design to the first rigidannular member 202 and first rigid annular member 203 shown in FIGS. 2Aand 2B, except for the retention method. Instead of using tabs radiallyextending outward from the basket support portion 108, the first rigidannular member 302 comprises a radial protrusion 350 that protrudesradially outward and extends all the way around the circumference of thebasket support portion 108 (although other embodiments may not have theradial protrusion 350 extending all the way around the circumferenceand/or may use multiple radial protrusions). Further, the second rigidannular member, shown in FIG. 3B, includes a plurality of inwardlyextending tabs 351 positioned about inner surface 260. Thecross-sectional view of FIG. 3C illustrates one of those inwardlyextending tabs 351 positioned adjacent to and slightly above the radialprotrusion 350.

Desirably, in use, when a user wishes to attach the second rigid annularmember 303 to the first rigid annular member 302, as shown in FIG. 3C,the user can slide the second rigid annular member 303 upward and forcethe plurality of inwardly extending tabs 351 over the radial protrusion350. Once the inwardly extending tabs 351 have been forced over theradial protrusion 350, the inwardly extending tabs 351 and radialprotrusion 350 will desirably retain the second rigid annular member 303in place with respect to the first rigid annular member 302. Oneadvantage of this retention method over the tabs 250 illustrated in FIG.2A is that the retention features may not be visible to a user of thedevice once the second rigid annual member is installed. This may, forexample, help to avoid pinch points that could potentially pinch auser's finger. In some embodiments, the radial protrusion 350 mayinstead be replaced by a radial recess that the inwardly extending tabs351 fit into. In some embodiments, both a radial protrusion and a radialrecess may be used. For example, the inwardly extending tabs 351 may beforced over the radial protrusion and then be positioned into the radialrecess.

Additional Embodiments and Benefits

Some embodiments of strainer baskets disclosed herein may comprisedifferent or additional features than those described above. Forexample, although having a flexible basket provides various benefits, insome embodiments it may be desirable to have at least some portion ofthe flexible basket be less flexible and/or reinforced. For example, itmay be desirable to have the portion of the flexible basket that isintended to be adjacent to a suction hole in a pool skimmer to bereinforced, such as to reduce a possibility that the flexible basketportion could be deformed toward and come into contact with that suctionhole, potentially plugging the hole. For example, some or all of thebottom portion 172 (see FIG. 1C) could include one or more stiffeningribs, such as a rib comprising a stiffer material such as a stifferpolymer or metal, adhered thereto or insert molded within the flexiblematerial. Further, in some embodiments, the bottom portion 172 of thestrainer basket may comprise a rigid material that is connected toflexible annular section 123. Further, in some embodiments it may bedesirable for one or more of the annular sections 121, 122, 123 tocomprise a reinforced region. Such a reinforced region could beaccomplished similarly, such as by adhering thereto or molding withinthe flexible material a rib comprising a stiffer or more rigid material.

As discussed above, it can be desirable for the flexible basket 114 tocomprise a flexible material, such as silicone, that has a greaterdensity or weight than a typical strainer basket material (such as ABS).One benefit of such a greater weight is that the strainer basket maytend to remain in place in a pool skimmer cavity better than a lighterstrainer basket formed of a lighter rigid material. Further, such asilicone basket may be heavy enough to stay in place without anyauxiliary weights. Some rigid strainer baskets, on the other hand, mayinclude a weight attached to the basket to counter the buoyancy of thelightweight rigid material. This can complicate and increase the cost ofmanufacturing. In some embodiments, however, it may be desirable toinclude a weight in a strainer basket as disclosed herein. For example,a weight could be adhered to or insert molded within the flexible basketmaterial 114 and/or the material of the rigid annular member 102. Theembodiment illustrated in FIG. 1A comprises a silicone basket 114 thatcomprises a wall thickness of approximately 2 millimeters. Otherthicknesses may be used, however, and in some embodiments it may bedesirable to increase or decrease the silicone wall thickness to adjustthe weight of the silicone basket portion. Further, it may be desirablein some embodiments to adjust the composition of the silicone materialitself to have a higher or lower density to, for example, adjust theweight of the silicone basket portion without having to (or in additionto) adjust the wall thickness.

Another benefit of using a heavier-weight material for the flexiblebasket 114, such as silicone, is that it may lower the center of gravityof the overall strainer basket 100 as compared to a typical strainerbasket formed of a lightweight rigid material. Having a lower center ofgravity can also help to retain the strainer basket in an appropriateorientation in a pool equipment cavity. In some embodiments, the designof a strainer basket as disclosed herein is such that the center ofgravity is desirably below a vertical midpoint in the height 180 (FIG.1B) of the strainer basket 100. In some embodiments, the center ofgravity is desirably within a bottom third of the height 180.

Although the designs illustrated in the accompanying figures aregenerally described with reference to a pool skimmer, they may also beused in other pool equipment, such as pool pumps. Further, thetechniques disclosed herein may also be utilized in strainer basketsthat have applications in other areas in addition to pool equipment.

Conditional language, such as, among others, “can,” “could,” “might,” or“may,” unless specifically stated otherwise, or otherwise understoodwithin the context as used, is generally intended to convey that certainembodiments include, while other embodiments do not include, certainfeatures, elements and/or steps. Thus, such conditional language is notgenerally intended to imply that features, elements and/or steps are inany way required for one or more embodiments or that one or moreembodiments necessarily include logic for deciding, with or without userinput or prompting, whether these features, elements and/or steps areincluded or are to be performed in any particular embodiment. Theheadings used herein are for the convenience of the reader only and arenot meant to limit the scope of the inventions or claims.

Although these inventions have been disclosed in the context of certainpreferred embodiments and examples, it will be understood by thoseskilled in the art that the present inventions extend beyond thespecifically disclosed embodiments to other alternative embodimentsand/or uses of the inventions and obvious modifications and equivalentsthereof. Additionally, the skilled artisan will recognize that any ofthe above-described methods can be carried out using any appropriateapparatus. Further, the disclosure herein of any particular feature,aspect, method, property, characteristic, quality, attribute, element,or the like in connection with an embodiment can be used in all otherembodiments set forth herein. For all of the embodiments describedherein the steps of the methods need not be performed sequentially.Thus, it is intended that the scope of the present inventions hereindisclosed should not be limited by the particular disclosed embodimentsdescribed above.

What is claimed is:
 1. A durable and configurable strainer basket forpool equipment, the strainer basket comprising: a first rigid annularmember comprising a central opening, a radially extending rim, and alongitudinally extending basket support portion, the first rigid annularmember comprising a rigid polymer material, the radially extending rimcomprising an outer surface sized to fit within a first pool equipmentcavity having a first diameter, the rim further comprising a lowersurface sized to rest on a ledge of the first pool equipment cavity; ahandle having a first end and a second end, the first end of the handleconnected to the first rigid annular member at a first location, and thesecond end of the handle connected to the first rigid annular member ata second location opposite the first location; a second rigid annularmember removably coupleable to the first rigid annular member, thesecond rigid annular member comprising an outer surface sized to fitwithin a second pool equipment cavity having a second diameter largerthan the first diameter, but not to fit within the first pool equipmentcavity having the first diameter; and a flexible basket permanentlyattached to the basket support portion of the first rigid annularmember, wherein the flexible basket comprises a tapered outer shapeformed by at least two flexible silicone annular sections that each havea plurality of holes passing therethrough, wherein the at least twoflexible silicone annular sections are configured to be collapsiblewithin one another such that the flexible basket comprises a collapsedconfiguration and an expanded configuration, and wherein the at leasttwo flexible silicone annular sections comprises a bottom flexiblesilicone annular section that is connected to a horizontal siliconefloor of the flexible basket, the bottom flexible silicone annularsection configured such that it is positioned fully below the firstrigid annular member when the flexible basket is in the expandedconfiguration, and positioned at least partially within the centralopening of the first rigid annular member when the flexible basket is inthe collapsed configuration.
 2. The strainer basket of claim 1, whereinthe at least two flexible silicone annular sections of the flexiblebasket comprises at least three flexible silicone annular sections. 3.The strainer basket of claim 1, wherein the basket support portion ofthe first rigid annular member comprises a longitudinally downwardlyextending member that is adhered with an adhesive at a joint on a sidesurface to a side surface of a longitudinally upwardly extending memberof the flexible basket.
 4. The strainer basket of claim 3, wherein aheight of the joint is at least 5 millimeters.
 5. The strainer basket ofclaim 1, wherein the at least two flexible silicone annular sections andthe horizontal silicone floor comprise a shape and thickness sufficientto position a center of gravity of the strainer basket below alongitudinal center point of the strainer basket.
 6. The strainer basketof claim 5, wherein the silicone material of the at least two flexiblesilicone annular sections and the horizontal silicone floor comprises athickness of at least 2 millimeters.
 7. The strainer basket of claim 1,wherein the rim of the first rigid annular member comprises at least oneradially recessed portion configured to enable locking of the strainerbasket into the first pool equipment cavity by rotating the strainerbasket about a longitudinal axis after inserting the strainer basketinto the first pool equipment cavity.
 8. The strainer basket of claim 1,wherein the flexible basket comprises a one-piece molded siliconestructure.
 9. A durable and configurable strainer basket for poolequipment, the strainer basket comprising: a first rigid annular membercomprising a central opening, a radially extending rim, and alongitudinally extending basket support portion, the rim comprising anouter surface sized to fit within a first pool equipment cavity having afirst diameter, the rim further comprising a lower surface sized to reston a ledge of the first pool equipment cavity; a second rigid annularmember removably coupleable to the first rigid annular member, thesecond rigid annular member comprising an outer surface sized to fitwithin a second pool equipment cavity having a second diameter largerthan the first diameter, but not to fit within the first pool equipmentcavity having the first diameter; and a flexible basket attached to thebasket support portion of the first rigid annular member, wherein theflexible basket comprises a silicone material having a plurality ofholes passing therethrough.
 10. The strainer basket of claim 9, whereinthe flexible basket comprises a tapered outer shape formed by at leasttwo annular sections configured to be collapsible within one another.11. The strainer basket of claim 9, wherein the silicone material of theflexible basket comprises a shape and thickness sufficient to position acenter of gravity of the strainer basket below a longitudinal centerpoint of the strainer basket.
 12. The strainer basket of claim 9,wherein the basket support portion of the first rigid annular membercomprises a longitudinally downwardly extending member that is adheredat a joint on a side surface to a side surface of a longitudinallyupwardly extending member of the flexible basket.
 13. The strainerbasket of claim 12, wherein a height of the joint is at least 5millimeters.
 14. A durable and collapsible strainer basket for poolequipment, the strainer basket comprising: a first rigid annular membercomprising a central opening, a radially extending rim, and alongitudinally extending basket support portion, the rim comprising anouter surface sized to fit within a first pool equipment cavity having afirst diameter, the rim further comprising a lower surface sized to reston a ledge of the first pool equipment cavity; a flexible basketattached to the basket support portion of the first rigid annularmember, wherein the flexible basket comprises a tapered outer shapeformed by at least two flexible silicone annular sections that each havea plurality of holes passing therethrough, wherein the at least twoflexible silicone annular sections are configured to be collapsible suchthat the flexible basket comprises a collapsed configuration and anexpanded configuration, and wherein the at least two flexible siliconeannular sections comprises a bottom flexible silicone annular sectionthat is connected to a horizontal floor of the flexible basket, thebottom flexible silicone annular section configured such that it ispositioned fully below the first rigid annular member when the flexiblebasket is in the expanded configuration and positioned at leastpartially within the central opening of the first rigid annular memberwhen the flexible basket is in the collapsed configuration.
 15. Thestrainer basket of claim 14, wherein the first rigid annular membercomprises a rigid polymer material.
 16. The strainer basket of claim 14,wherein a height of the strainer basket, measured longitudinally from anuppermost surface of the strainer basket to a lowermost surface of thestrainer basket, comprises a first height when the flexible basket is inthe collapsed configuration and a second height when the flexible basketis in the expanded configuration, wherein the first height is no morethan 50% of the second height.
 17. The strainer basket of claim 16,wherein the first height is no more than 40% of the second height. 18.The strainer basket of claim 14, wherein the basket support portion ofthe first rigid annular member comprises a longitudinally downwardlyextending member that is adhered with an adhesive at a joint on a sidesurface to a side surface of a longitudinally upwardly extending memberof the flexible basket.
 19. The strainer basket of claim 18, wherein aheight of the joint is at least 5 millimeters.
 20. The strainer basketof claim 14, wherein the silicone material of the flexible basketcomprises a thickness of at least 2 millimeters.